Oxidant Enhancement in Martian Dust Devils and Storms: Storm Electric Fields and Electron Dissociative Attachment

Details Oxidant Enhancement in Martian Dust Devils and Storms: Storm Electric Fields and Electron Dissociative Attachment Oxidant Enhancement in Martian Dust Devils and Storms: Storm Electric Fields and Electron Dissociative Attachment

Jun 2006

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2006asbio...6..451d&link_type=abstract

Astrobiology, Volume 6, Issue 3, pp. 451-462.

Biology

31

Mars, Dust Storm, Dust Devil, Electric Field, Oxidant, Habitability

Scientific paper

Laboratory studies, numerical simulations, and desert field tests indicate that aeolian dust transport can generate atmospheric electricity via contact electrification or "triboelectricity." In convective structures such as dust devils and dust storms, grain stratification leads to macroscopic charge separations and gives rise to an overall electric dipole moment in the aeolian feature, similar in nature to the dipolar electric field generated in terrestrial thunderstorms. Previous numerical simulations indicate that these storm electric fields on Mars can approach the ambient breakdown field strength of ~25 kV/m. In terrestrial dust phenomena, potentials ranging from ~20 to 160 kV/m have been directly measured. The large electrostatic fields predicted in martian dust devils and storms can energize electrons in the low pressure martian atmosphere to values exceeding the electron dissociative attachment energy of both CO2 and H2O, which results in the formation of the new chemical products CO/O and OH/H, respectively. Using a collisional plasma physics model, we present calculations of the CO/O and OH/H reaction and production rates. We demonstrate that these rates vary geometrically with the ambient electric field, with substantial production of dissociative products when fields approach the breakdown value of ~25 kV/m. The dissociation of H2O into OH/H provides a key ingredient for the generation of oxidants; thus electrically charged dust may significantly impact the habitability of Mars.

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